CUET · CHEMISTRY · PYQ PAPER 2025
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When a metal is placed in a solution of its ions, the metal can lose electron and can go in the solution as ion or the metal ion in the solution can take electron from the electrode and get deposited as metal. Thus, the electrode acquires either positive or negative charge with respect to the solution leading to the development of a potential difference between the metal electrode and the solution. This potential difference is called the electrode potential of the metal. The electrode potential of a metal is a measure of relative tendency to undergo oxidation (loss of electron) or reduction (gain of electron). When the concentration of the ions in the solution is unity, the electrode potential is called standard electrode potential. The magni of potential depends upon the nature of electrode, concentration of ions in solution and the temperature. In a galvanic cell, the electrode at which oxidation occurs is known as anodic half-cell and the electrode at which reduction occurs is known as cathodic half cell. The emf of the cell in terms of standard reduction potential is given by \(E_{\text {cell }}^{\circ}=E_{\text {cathode }}^{\circ}-E_{\text {anode. }}^{\circ}\).The standard free energy change of the redox reaction taking place in the cell is related to \(E_{\text {cell }}^{\circ}\) by \(\Delta G^{\circ}=-n F E^{\circ}\). A redox reaction would occur spontaneously if the free energy change is negative. The equilibrium constant of the reaction is related to the standard free energy change by \(\Delta G^{\circ}=-R T \ln K\).
The standard reduction potential of Zinc is represented by the reaction
- A \(Zn ^{2+}( aq )+2 e^{-} \rightarrow Zn ( s )\)
- B \(Zn ^{2+}( g )+2 e^{-} \rightarrow Zn ( s )\)
- C \(Zn ^{2+}( g )+2 e^{-} \rightarrow Zn ( s )\)
- D \(Zn ^{2+}( s )+2 e^{-} \rightarrow Zn ( s )\)
Answer & Solution
Correct Answer
(A) \(Zn ^{2+}( aq )+2 e^{-} \rightarrow Zn ( s )\)
Step-by-step Solution
Detailed explanation
\(Zn ^{2+}( aq )+2 e^{-} \rightarrow Zn ( s )\)
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Primary and secondary alcohols yield aldehydes and ketones respectively upon oxidation with variety of oxidizing agents.
The boiling points of aldehydes and ketones differ from hydrocarbons and ethers.
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The resistance ( \(R\) ) of an object is given by the expression \(R=\rho \frac{l}{A}\)
The inverse of \(R\) is called conductance and the inverse of \(\rho\) is called conductivity or specific conductance represented by \(\kappa\).
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